High voltage power controlling apparatus of image forming apparatus and method thereof

ABSTRACT

A high voltage power controlling apparatus of an image forming apparatus including a DC (direct current) power controller to convert and output a first PWM (pulse width modulation) signal provided from an engine controller into a switching waveform signal, a first voltage transformer to transform the switching waveform signal output from the DC power controller, a rectifier to rectify output power transformed by the first voltage transformer into DC power, first through N (where N is a positive integer greater than one) DC supplies to adjust and output the DC power rectified by the rectifier such that the DC power is adjusted to a predetermined level, first through N AC (alternating current) power controllers to convert and output a second PWM signal provided from the engine controller into switching waveform signals, and second through N+1 voltage transformer to transform the switching waveform signals output from the first through N AC power controllers, to overlap the transformed powers with the DC powers having predetermined levels of the first through N DC supplies, and to output the overlapped powers to first through N developers, respectively.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority under 35 U.S.C. 119(a) from KoreanPatent Application No. 10-2007-0040056, filed on Apr. 24, 2007, in theKorean Intellectual Property Office, the disclosure of which isincorporated herein in its entirety by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present general inventive concept relates to a high voltage powercontrolling apparatus of an image forming apparatus which reduces anumber of voltage transformers that supply direct current (DC) power ina high voltage power supply which is applied to a laser printer or alaser multi-function peripheral device, so as to reduce both a size ofthe image forming apparatus and material costs, and a method thereof.

2. Description of the Related Art

FIG. 1 is a circuit diagram of a conventional high voltage powercontrolling apparatus supplied to each cyan (C), magenta (M), yellow(Y), and black (K) developer. Referring to FIG. 1, the conventional highvoltage power controlling apparatus includes first through fourthalternating current (AC) power controllers 100, 110, 120, and 130, firstthrough fourth voltage transformers 102, 112, 122, and 132, firstthrough fourth direct current (DC) power controllers 104, 114, 124, and134, fifth through eighth voltage transformers 106, 116, 126, and 136,and first through fourth rectifiers 108, 118, 128, and 138, in order toprovide an overlap high voltage of AC and DC to each cyan (C), magenta(M), yellow (Y), and black (K) developer in an image forming apparatususing a single path method.

In order to output the AC high voltage, the first through fourth ACpower controllers 100, 110, 120, and 130 generate waveforms. Then, thefirst through fourth voltage transformers 102, 112, 122, and 132respectively amplify the waveforms of the first through fourth AC powercontrollers 100, 110, 120, and 130 to output AC power. Then, the firstthrough fourth DC power controllers 104, 114, 124, and 134 outputwaveforms, and the fifth through eighth voltage transformers 106, 116,126, and 136 and the first through fourth rectifiers 108, 118, 128, and138 output the waveforms as DC power. Thus, the DC power overlaps withthe AC power and then is output.

However, in the image forming apparatus using the single path method, Y,C, M, and K developers are distinguished from one another. Also, anumber of DC power controllers and the number of AC power controllersmust be each equal to a number of Y, C, M, and K developers in order tosupply a high voltage developer voltage to each of the Y, C, M, and Kdevelopers. In addition, a number of voltage transformers and a numberof rectifiers must be each greater than or equal to a number of Y, C, M,and K developers. As a result, the image forming apparatus becomes bulkyand the material costs for the components constituting the image formingapparatus are high.

SUMMARY OF THE INVENTION

The present general inventive concept provides a high voltage powercontrolling apparatus of an image forming apparatus having a simplifiedcircuit structure, which controls an overlapping power of an alternatingcurrent (AC) and a direct current (DC) that is supplied to each ofyellow (Y), cyan (C), magenta (M), and black (K) developers, therebyreducing a bulkiness and manufacturing costs of the image formingapparatus, and a method thereof.

Additional aspects and utilities of the present general inventiveconcept will be set forth in part in the description which follows and,in part, will be obvious from the description, or may be learned bypractice of the general inventive concept.

The foregoing and/or other aspects and utilities of the present generalinventive concept are achieved by providing a high voltage powercontrolling apparatus of an image forming apparatus including a DC(direct current) power controller to convert and output a first PWM(pulse width modulation) signal provided from an engine controller intoa switching waveform signal, a first voltage transformer to transformthe switching waveform signal output from the DC power controller, arectifier to rectify output power transformed by the first voltagetransformer into DC power, first through N (where N is a positiveinteger greater than one) DC supplies to adjust and output the DC powerrectified by the rectifier such that the DC power is adjusted to apredetermined level, first through N AC (alternating current) powercontrollers to convert and output a second PWM signal provided from theengine controller into switching waveform signals, and second throughN+1 voltage transformer to transform the switching waveform signalsoutput from the first through N AC power controllers, to overlap thetransformed powers with the DC powers having predetermined levels of thefirst through N DC supplies, and to output the overlapped powers tofirst through N developers, respectively.

Each of the first through N DC supplies may include first and secondresistors to divide the rectified DC power, an operational amplifier tocompare a third PWM signal that is input into a positive node of theoperational amplifier with a reference voltage that is input into anegative node of the operational amplifier, and to output a comparisonsignal, and a switching unit to perform a switching operation accordingto the comparison signal of the operational amplifier to adjust a powerlevel of the DC power.

Each of the first through N DC supplies may further include a capacitorto smooth the ripples of the DC power having the adjusted power level.

The first through N developers may be respectively C (cyan), M(magenta), Y (yellow), and K (black) developers.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a high voltage powercontrolling apparatus of an image forming apparatus including a voltagetransformer to transform a switching waveform signal output from a DCpower controller, a rectifier to rectify output power transformed by thevoltage transformer, a plurality of DC supplies to adjust and output theDC power rectifies by the rectifier to a predetermined level, and aplurality of voltage transformers to transform power respectively outputfrom a plurality of AC power controllers.

The AC power controllers may transform a first PWM signal provided froman engine controller respectively into switching waveform signals.

Each of the DC supplies may include first and second resistors to dividethe rectified DC power, an operational amplifier to compare a third PWMsignal that is input into a positive node of the operational amplifierwith a reference voltage that is input into a negative node of theoperational amplifier, and to output a comparison signal, and aswitching unit to perform a switching operation according to thecomparison signal of the operational amplifier so as to adjust a powerlevel of the DC power.

Each of the DC supplies may further include a capacitor to smooth theripples of the DC power having the adjusted power level.

Each of the AC power controllers may convert a second PWM signalprovided from the ending controller into a switching waveform signal.

Each of the voltage transformers may overlap DC power adjusted by the DCsupplies.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a high voltage powercontrolling apparatus of an image forming apparatus, including aplurality of developing units to each expel a developer based onpredetermined DC and AC power levels, a plurality of DC power adjustmentunits to each adjust an input DC power from a single DC power controllerto the predetermined DC power levels, and a plurality of voltagetransformers to each combine an AC power with each one of the pluralityof adjusted DC powers and to output the combined AC and DC powers torespective ones of the plurality of developing units.

The high voltage power controlling apparatus of may further include arectifier to output an identical rectified switching signal to each oneof the plurality of DC power adjustment units, such that the rectifiedswitching signal is the input DC power.

Each one of the plurality of DC power adjustment units may include aplurality of resistors to divide the input DC power, a comparator tooutput a comparison signal based on a comparison of another PWM signaland a reference voltage, and a switching unit to perform a switchingoperation according to the comparison signal to adjust the DC power.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a high voltage powercontrolling apparatus of an image forming apparatus, including aplurality of developing units to each expel a developer based onpredetermined DC and AC power levels, a plurality of DC power adjustmentunits to each adjust an input DC power from a single DC power controllerto the predetermined DC power levels, a plurality of AC powercontrollers to correspond to each of the plurality of DC poweradjustment units and to each convert a PWM signal into a switchingwaveform signal, and a plurality of voltage transformers to transformeach of the switching waveform signals output from the plurality of ACpower controllers and to combine and output the transformed AC powersand the adjusted DC powers to the plurality of developing units.

The transforming of each of the switching waveform signals output fromthe plurality of AC power controllers may be based on turns ratios ofeach of the plurality of AC power controllers.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a high voltage powercontrolling apparatus of an image forming apparatus, including aplurality of developing units to each expel a developer based onpredetermined DC and AC power levels, a plurality of AC powercontrollers to each generate an AC power, and a power adjusting unit toreceive a single DC power and including a plurality of DC poweradjustment units to each receive the single DC power and adjust thesingle DC power to correspond to the predetermined DC and AC powerlevels, and a plurality of first voltage transformers to combine each ofthe adjusted DC powers with the AC power generated by each of the ACpower controllers and to output each of the combined AC and DC powers toone of the plurality of the developing units.

The high voltage power controlling apparatus may also include a DC powercontrolling unit to supply the DC power to the power adjusting unit, theDC power controlling unit comprising a DC power controller to convertand output a PWM signal provided from an engine controller into aswitching waveform signal, a second voltage transformer to transform theswitching waveform signal output from the DC power controller, and arectifier to rectify the output power transformed by the second voltagetransformer into the single DC power.

The transforming of the switching waveform signal output from the DCpower controller may be based on a turns ratio of the second voltagetransformer.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a method ofcontrolling a high voltage power of an image forming apparatus,including converting and outputting a first PWM (pulse width modulation)signal into a switching waveform signal, transforming the switchingwaveform signal into an output power, rectifying the transformed outputpower into DC power, adjusting and outputting the rectified DC powersuch that the DC power is adjusted to a predetermined level in firstthrough N DC (direct current) supplies, converting and outputting asecond PWM signal into switching waveform signals in first through N AC(alternating current) power controllers, transforming the switchingwaveform signals output from the first through N AC power controllers tooverlap the transformed powers with the DC powers having predeterminedlevels of the first through N DC supplies in a plurality of voltagetransformers, and outputting the overlapped powers to first through Ndevelopers, respectively.

The foregoing and/or other aspects and utilities of the present generalinventive concept may also by achieved by providing a method ofcontrolling a high voltage power of an image forming apparatus,including adjusting identical input DC powers in the plurality of DCsupplies to various differing predetermined DC power levels, combiningeach one of the adjusted DC powers with an AC power, and outputting eachof the combined AC and DC powers to one of a plurality of developingunits to expel developer therefrom.

BRIEF DESCRIPTION OF THE DRAWINGS

These and/or other aspects and utilities of the present generalinventive concept will become apparent and more readily appreciated fromthe following description of the embodiments, taken in conjunction withthe accompanying drawings of which:

FIG. 1 is a circuit diagram of a conventional high voltage powercontrolling apparatus to control high voltage power supplied to each ofa plurality of developers;

FIG. 2 is a circuit diagram illustrating a high voltage powercontrolling apparatus of an image forming apparatus, according to anembodiment of the present general inventive concept; and

FIG. 3 is a circuit diagram of each first through fourth direct current(DC) supply of FIG. 2, according to an embodiment of the present generalinventive concept.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Reference will now be made in detail to the embodiments of the presentgeneral inventive concept, examples of which are illustrated in theaccompanying drawings, wherein like reference numerals refer to the likeelements throughout. The embodiments are described below in order toexplain the present general inventive concept by referring to thefigures.

FIG. 2 is a circuit diagram illustrating a high voltage powercontrolling apparatus of an image forming apparatus according to anembodiment of the present general inventive concept. Referring to FIG.2, the high voltage power controlling apparatus includes a directcurrent (DC) power controller 200, a first voltage transformer 202, arectifier 204, first, second, third, and fourth DC supplies 206, 208,210, and 212, first through fourth alternating current (AC) powercontrollers 214, 216, 218, and 220, and second, third, fourth, and fifthvoltage transformers 222, 224, 226, and 228. The high voltage powercontrolling apparatus includes cyan (C), magenta (M), yellow (Y), andblack (K) developers as later described. However, the components of thehigh voltage power controlling apparatus may vary depending on a numberof developers being used.

The DC power controller 200 converts a first pulse width modulation(PWD) signal provided from an engine controller 1 into a switchingwaveform signal and outputs the switching waveform signal to a firstside of the first voltage transformer 202. A detailed operation of theDC power controller 200 is similar to that described in the related art,and thus a detailed description thereof will be omitted herein.

The first voltage transformer 202 transforms the switching waveformsignal output from the DC power controller 200 according to a turnsratio of the first voltage transformer 202 and outputs the transformedpower to the rectifier 204. Since a transformer contains a certainnumber of turns of wire, the turns ratio is defined as the ratio ofturns of wire in a primary winding of the transformer to the number ofturns of wire in a secondary winding of the transformer. For example, ifthe turns ratio of the first voltage transformer 202 is 4 to 1, and 40volts are placed across a primary winding of the first voltagetransformer 202, 10 volts will result across a secondary winding of thefirst voltage transformer 202 (i.e., 40/4=10).

The rectifier 204 rectifies the power output from the first voltagetransformer 202 into DC power and outputs the DC power to the first,second, third, and fourth DC supplies 206, 208, 210, and 212. To do so,the rectifier 204 includes a capacitor and a diode as illustrated inFIG. 2. A detailed operation of the rectifier 204 is similar to thatdescribed in the related art, and thus a detailed description thereofwill be omitted herein.

The first, second, third, and fourth DC supplies 206, 208, 210, and 212adjust the DC power rectified by the rectifier 204 to a predeterminedlevel, and respectively output the DC power to second sides of thesecond, third, fourth, and fifth voltage transformers 222, 224, 226, and228.

FIG. 3 is a circuit diagram of each of the first, second, third, andfourth DC supplies 206, 208, 210, and 212 illustrated in FIG. 2,according to an embodiment of the present general inventive concept. Asillustrated in FIG. 3, each of the first, second, third, and fourth DCsupplies 206, 208, 210, and 212 includes first and second resistors R1and R2, an operational amplifier OP AMP, a switching unit SW, and acapacitor C. If the DC power rectified by the rectifier 204 is inputthrough an input node IN1, the first and second resistors R1 and R2divide the rectified DC power according to a resistance ratio of thefirst and second resistors R1 and R2.

The operation amplifier OP AMP compares a third PWM signal input into apositive node with a reference voltage Vcc input into a negative node soas to output a comparison signal. More specifically, the third PWMsignal input from the engine controller 1 is directly input into thepositive node of the operational amplifier OP AMP, and the referencevoltage Vcc is first divided by third and fourth resistors R3 and R4 andthen is input into the negative node of the operational amplifier OPAMP. The operational amplifier OP AMP compares the third PWM signal withthe divided reference voltage Vcc and then outputs the comparison signalobtained from the comparison result to the switching unit SW.

The switching unit SW performs a switching operation according to thecomparison signal of the operational amplifier OP AMP so as to adjust apower level of DC power divided by the first and second resistors R1 andR2. The power level of the DC power that is to be supplied to acorresponding developer is adjusted by the switching operation of theswitching unit SW, and the power level is complementary to power levelsof DC powers that are to be supplied to other developers. The DC powerhaving the adjusted power level is output to the second side of one ofthe second, third, fourth, and fifth voltage transformers 222, 224, 226,and 228, respectively, through an output node OUT1. The capacitor C, asillustrated in FIG. 3, smoothes any existing ripples of the DC powerhaving the adjusted power level.

The first, second, third, and fourth AC power controllers 214, 216, 218,and 220 transform a second PWM signal provided from the enginecontroller 1 into switching waveform signals and respectively output theswitching waveform signals to first sides of the second, third, fourth,and fifth voltage transformers 222, 224, 226, and 228. Detailedoperations of the first, second, third, and fourth AC power controllers214, 216, 218, and 220 are similar to that described in the related art,and thus detailed descriptions thereof will be omitted herein.

The second, third, fourth, and fifth voltage transformers 222, 224, 226,and 228 transform the switching waveform signals respectively outputfrom the first, second, third, and fourth AC power controllers 214, 216,218, and 220 according to turns ratios of each of the second, third,fourth, and fifth voltage transformers 222, 224, 226, and 228.

The transformed AC power of the second, third, fourth, and fifth voltagetransformers 222, 224, 226, and 228 respectively overlaps with DC powerhaving predetermined levels adjusted by the first, second, third, andfourth DC supplies 206, 208, 210, and 212 at the second sides of thesecond, third, fourth, and fifth voltage transformers 222, 224, 226, and228. The AC and DC power of the second, third, fourth, and fifth voltagetransformers 222, 224, 226, and 228 that overlap are respectivelysupplied to first, second, third, and fourth developers which arerespectively located in first, second, third, and fourth developingunits 230, 232, 234, and 236, and thus used as power to drive the first,second, third, and fourth developing units 230, 232, 234, and 236 thatrespectively include Y, M, C, and K developers. Each one of the first,second, third, and fourth developing the 230, 232, 234, and 236 mayexpel Y, M, C, and K developers, respectively, according to uniquepredetermined AC and DC power levels.

As described above, in a high voltage power controlling apparatus of animage forming apparatus according to the present general inventiveconcept, a number of voltage dividers to supply DC power and a number ofrectifiers can be minimized to reduce a size of the image formingapparatus. Also, components of the image forming apparatus can besimplified so as to reduce a unit cost of the image forming apparatus.

Although a few embodiments of the present general inventive concept havebeen shown and described, it will be appreciated by those skilled in theart that changes may be made in these embodiments without departing fromthe principles and spirit of the general inventive concept, the scope ofwhich is defined in the appended claims and their equivalents.

1. A high voltage power controlling apparatus of an image formingapparatus, comprising: a DC (direct current) power controller to convertand output a first PWM (pulse width modulation) signal provided from anengine controller into a switching waveform signal; a first voltagetransformer to transform the switching waveform signal output from theDC power controller; a rectifier to rectify the output power transformedby the first voltage transformer into DC power; first through N (where Nis a positive integer greater than one) DC supplies to adjust and outputthe DC power rectified by the rectifier such that the DC power isadjusted to a predetermined level; first through N AC (alternatingcurrent) power controllers to convert and output a second PWM signalprovided from the engine controller into switching waveform signals; andsecond through N+1 voltage transformers to transform the switchingwaveform signals output from the first through N AC power controllers,to overlap the transformed powers with the DC powers havingpredetermined levels of the first through N DC supplies, and to outputthe overlapped powers to first through N developers, respectively. 2.The high voltage power controlling apparatus of claim 1, wherein each ofthe first through N DC supplies comprises: first and second resistors todivide the rectified DC power; an operational amplifier to compare athird PWM signal input into a positive node of the operational amplifierwith a reference voltage input into a negative node of the operationalamplifier, and to output a comparison signal; and a switching unit toperform a switching operation according to the comparison signal of theoperational amplifier to adjust a power level of the DC power.
 3. Thehigh voltage power controlling apparatus of claim 2, wherein each of thefirst through N DC supplies further comprises: a capacitor to smooth theripples of the DC power having the adjusted power level.
 4. The highvoltage power controlling apparatus of claim 1, wherein the firstthrough N developers respectively are C (cyan), M (magenta), Y (yellow),and K (black) developers.
 5. A high voltage power controlling apparatusof an image forming apparatus, comprising: a voltage transformer totransform a switching waveform signal output from a DC power controller;a rectifier to rectify output power transformed by the voltagetransformer; a plurality of DC supplies to adjust and output the DCpower rectified by the rectifier to a predetermined level; and aplurality of voltage transformers to transform power respectively outputfrom a plurality of AC power controllers.
 6. The high voltage powercontrolling apparatus of claim 5, wherein the DC power controllerconverts a first PWM signal provided from an engine controllerrespectively into switching waveform signals.
 7. The high voltage powercontrolling apparatus of claim 5, wherein each of the DC suppliescomprises: first and second resistors to divide the rectified DC power;an operational amplifier to compare a third PWM signal input into apositive node of the operational amplifier with a reference voltageinput into a negative node of the operational amplifier, and to output acomparison signal; and a switching unit to perform a switching operationaccording to the comparison signal of the operational amplifier toadjust a power level of the DC power.
 8. The high voltage powercontrolling apparatus of claim 7, wherein each of the DC suppliesfurther comprises: a capacitor to smoothing the ripples of the DC powerhaving the adjusted power level.
 9. The high voltage power controllingapparatus of claim 5, wherein each of the AC power controllers convertsa second PWM signal provided from the ending controller into a switchingwaveform signal.
 10. The high voltage power controlling apparatus ofclaim 5, wherein each of the voltage transformers overlaps DC poweradjusted by the DC supplies.
 11. A high voltage power controllingapparatus of an image forming apparatus, comprising: a plurality ofdeveloping units to each expel a developer based on predetermined DC andAC power levels; a plurality of DC power adjustment units to each adjustan input DC power from a single DC power controller to the predeterminedDC power levels; and a plurality of voltage transformers to each combinean AC power with each one of the plurality of adjusted DC powers and tooutput the combined AC and DC powers to respective ones of the pluralityof developing units.
 12. The high voltage power controlling apparatus ofclaim 11, further comprising: a rectifier to output an identicalrectified switching signal to each one of the plurality of DC poweradjustment units, such that the rectified switching signal is the inputDC power.
 13. The high voltage power controlling apparatus of claim 11,wherein each one of the plurality of DC power adjustment unitscomprises: a plurality of resistors to divide the input DC power; acomparator to output a comparison signal based on a comparison ofanother PWM signal and a reference voltage; and a switching unit toperform a switching operation according to the comparison signal toadjust the DC power.
 14. A high voltage power controlling apparatus ofan image forming apparatus, comprising: a plurality of developing unitsto each expel a developer based on predetermined DC and AC power levels;a plurality of DC power adjustment units to each adjust an input DCpower from a single DC power controller to the predetermined DC powerlevels; a plurality of AC power controllers to correspond to each of theplurality of DC power adjustment units and to each convert a PWM signalinto a switching waveform signal; and a plurality of voltagetransformers to transform each of the switching waveform signals outputfrom the plurality of AC power controllers and to combine and output thetransformed AC powers and the adjusted DC powers to the plurality ofdeveloping units.
 15. The high voltage power controlling apparatus ofclaim 14, wherein the transforming of each of the switching waveformsignals output from the plurality of AC power controllers is based onturns ratios of each of the plurality of AC power controllers.
 16. Ahigh voltage power controlling apparatus of an image forming apparatus,comprising: a plurality of developing units to each expel a developerbased on predetermined DC and AC power levels; a plurality of AC powercontrollers to each generate an AC power; and a power adjusting unit toreceive a single DC power and comprising: a plurality of DC poweradjustment units to each receive the single DC power and adjust thesingle DC power to correspond to the predetermined DC and AC powerlevels, and a plurality of first voltage transformers to combine each ofthe adjusted DC powers with the AC power generated by each of the ACpower controllers and to output each of the combined AC and DC powers toone of the plurality of the developing units.
 17. The high voltage powercontrolling apparatus of claim 16, further comprising a DC powercontrolling unit to supply the single DC power to the power adjustingunit, the DC power controlling unit comprising: a DC power controller toconvert and output a PWM signal provided from an engine controller intoa switching waveform signal; a second voltage transformer to transformthe switching waveform signal output from the DC power controller; and arectifier to rectify the output power transformed by the second voltagetransformer into the single DC power.
 18. The high voltage powercontrolling apparatus of claim 17, wherein the transforming of theswitching waveform signal output from the DC power controller is basedon a turns ratio of the second voltage transformer.
 19. A method ofcontrolling a high voltage power of an image forming apparatus,comprising: converting and outputting a first PWM (pulse widthmodulation) signal into a switching waveform signal; transforming theswitching waveform signal into an output power; rectifying thetransformed output power into DC power; adjusting and outputting therectified DC power such that the DC power is adjusted to a predeterminedlevel in first through N DC (direct current) supplies; converting andoutputting a second PWM signal into switching waveform signals in firstthrough N AC (alternating current) power controllers; transforming theswitching waveform signals output from the first through N AC powercontrollers to overlap the transformed powers with the DC powers havingpredetermined levels of the first through N DC supplies in a pluralityof voltage transformers; and outputting the overlapped powers to firstthrough N developers, respectively.
 20. A method of controlling a highvoltage power of an image forming apparatus, comprising: adjustingidentical input DC powers in the plurality of DC supplies to variousdiffering predetermined DC power levels; combining each one of theadjusted DC powers with an AC power; and outputting each of the combinedAC and DC powers to one of a plurality of developing units to expeldeveloper therefrom.